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                   curve surfaces, kinematics of fluid motion, integral and differential representation of conservation
                   of mass, balance of linear and angular momentum, the first Law of Thermodynamics, continuity
                   equation, Bernoulli’s equation, energy principle, dimensional analysis, and elementary viscous
                   flow. Frictional losses, simple pipeline analysis and steady channel flow are covered.


               CEE 341    Engineering Hydrology
               Credits: 3 (2,1,2)   Prerequisite:  CEE 242
                   The  course  provides  the  fundamentals  of  engineering  hydrology  through  the  processes  of
                   hydrologic  cycle  including  precipitation,  infiltration,  and  runoff.  It  covers  the  development  of
                   quantitative approaches for engineering hydrology problems such as watershed modeling and
                   storm water analysis, groundwater flow, and related designs.


               CEE 261    Structural Analysis I
               Credits: 3 (3,1,0)   Prerequisite:    EM 203    Co-requisite:    EE 101, CEE 262
                   Equilibrium,  stability,  and  determinacy.    Influence  lines  for  beams  and  trusses.    Deflection  of
                   beams and frames by double-integration method, moment-area theorems, and conjugate beam.
                   Introduction to indeterminate structures.  Approximate analysis of indeterminate building frames.
                   Computer structural analysis applications.


               CEE 262    Mechanics of Materials
               Credits: 3 (2,1,2)   Prerequisites:  EM 203, MATH 113
                   This course tackles the fundamentals of properties of structural materials; analysis of stress and
                   deformation in axially loaded members, circular shafts, and beams, and in statically indeterminate
                   systems  containing  these  components.  Specifically,  the  course  will  come  across  the  following
                   topics: Definitions of stress and strain; Stress, strain, and deformation of axially loaded bars and
                   torsionally loaded shafts; Distributed  loads; Statically indeterminate problems;  Stress &  strain
                   components and transformations and Mohr’s circle; Pressure vessels; Linear elastic constitutive
                   equations; Shear and moment diagrams; Bending and transverse shear stress; Combined loading;
                   Beam deflection; and Column buckling.  Laboratory experiments are associated with the lectures.


               CEE 361     Reinforced Concrete Design I
               Credits: 3(3,1,0)   Prerequisite:  CEE 262, CEE 261
                   Behavior, analysis, design, and construction of reinforced concrete structural members including
                   beams, slabs, columns, and footings.


               CEE 362    SOIL MECHANICS AND FOUNDATIONS
               Credits: 3 (2,1,2)   Prerequisites:  CEE 262, GEO 201  Co-requisite:   CEE 242

                   A  course  on  soil  classification  and  index  properties;  soil  structure  and  moisture;  compaction;
                   seepage;  effective  stress  concept;  compressibility  and  consolidation;  stress  and  settlement
                   analysis; shear strength; slope stability; soil stabilization methods. The course includes hands-on
                   laboratory experiments of most important soil properties.